Mobile communication network system and location registration method

ABSTRACT

The mobile communication network system having a plurality of mobile communication systems each including a base station performing wireless communications with a mobile station, comprises a storage unit storing location information of the mobile station, an acquisition unit acquiring, when receiving a location registering request from the mobile station, a communication-enabled mobile communication system in the mobile station as a sender of the location registering request, a specifying unit specifying a base station existing within the acquired communication-enabled mobile communication system and existing in the periphery of the base station receiving the location registering request, and a control unit storing the storage unit with information of the base station receiving the location registering request and information of the specified base station as location information about the sender mobile station of the location registering request.

BACKGROUND OF THE INVENTION

1. Field of the invention

The present invention relates to a mobile communication network systemconfigured by a plurality of mobile communication systems.

2. Description of the Related Art

At the present, a mobile communication system for a cellular phone etc.shifts from a second generation system such as a PDC (Personal DigitalCellular) method to a third generation system based on a CDMA (CodeDivision Multiple Access) method, wherein a variety of services based onthe third generation system are started.

In this type of conventional mobile communication network system, themobile communication systems are respectively provided according to therespective communication methods and individually need to grasp alocation of a user terminal (mobile station). Such being the case,location information of the mobile station is registered with respect toeach of the mobile communication system in a database called, a homelocation register (which will hereinafter be also simply abbreviated toHLR) within the mobile communication network system. Further, thelocation of the mobile station (which will hereinafter be also simplyabbreviated to MS) can be grasped according to a communication area of abase station (which will hereinafter be also simply be abbreviated toBS) installed in each cell, and therefore information about each basestation has hitherto been employed for the location information of themobile station.

Herein, a location registration procedure of the mobile station in theconventional mobile communication network system will be explained withreference to FIG. 11. FIG. 11 is a diagram showing a locationregistration sequence of the mobile station in the conventional system.In FIG. 11, MS represents the mobile station, BS 1 indicates a basestation in a mobile communication system 1, BS 2 designates a basestation in a mobile communication system 2, and HLR stands for the homelocation register. Further, the mobile communication system 1 is, e.g.,the CDMA wireless system, the mobile communication system 2 is, e.g.,the PDC wireless system, and the MS is the user terminal having wirelessinterface functions for both of the COMA method and the PDC method. Inthis case, the MS is capable of performing the communications with bothof the mobile communication system 1 and the mobile communication system2, and hence the conventional system has a necessity of independentlyconducting location registration for each of the mobile communicationsystem 1 and the mobile communication system 2.

On the other hand, a next generation mobile communication methodenabling further high-speed wireless communications is now underexaminations. Various categories of standards for this type of nextgeneration mobile communication method are drawn up by 3GPP (3rdGeneration Partnership Project). In particular, a technology related toa cell selection and a cell reselecting process in an idle modeprocedure applied to the user terminal is disclosed in the following,conventional Non-Patent document 1. The conventional Non-Patent document1 is “User Equipment (UE) procedures in idle mode and procedures forcell reselection in connected mode (Release 5) (3GPP TS 25.304, 2005-03,V5.8.0.).”

In the conventional mobile communication network system shown in FIG.11, a problem is that a dual-mode-supported mobile station needs totransmit radio waves for the location registration to each of thewireless systems and therefore consumes a large quantity of electricpower.

On the other hand, in the next generation mobile communications, with aspeedup in transmission rate and a cooperation of the plurality ofwireless systems with each other, it is desirable to actualize such asystem that users can utilize the wireless systems without being awareof these wireless systems in whatever environments. Then, it isconsidered that in the next generation mobile communications, theplurality of mobile communication systems are separately employedcorresponding to applications of the users, and a mobile communicationnetwork taking a composite form of these systems will be configured.

SUMMARY OF THE INVENTION

It is an object of the present invention to actualize a mobilecommunication network system capable of reducing electric powerconsumption of each of a mobile station device and a base station deviceby performing cooperative communication linkage between a plurality ofwireless systems.

The present invention adopts the following configurations in order tosolve the problems. Namely, the present invention is a mobilecommunication network system configured by a plurality of mobilecommunication systems each including a base station performing wirelesscommunications with a mobile station, comprising a storage unit storinglocation information of the mobile station, an acquisition unitacquiring, when receiving a location registering request from the mobilestation, a communication-enabled mobile communication system of themobile station as a sender of the location registering request, aspecifying unit specifying a base station existing in other mobilecommunication system than the mobile communication system including thebase station receiving the location registering request of the acquiredcommunication-enabled mobile communication system and existing in theperiphery of the base station receiving the location registeringrequest, and a control unit storing information of the base stationreceiving the location registering request and information of thespecified base station as location information about the sender mobilestation of the location registering request in the storage unit.

In the present invention, when receiving the location registeringrequest from the mobile station, the information of the base stationreceiving the location registering request and the information of thebase station existing within the mobile communication system throughwhich the sender base station of the location registering request canperform the communication and existing in the periphery of the basestation receiving the location registering request, are batchwiselocation-registered as the location information of the sender mobilestation.

Hence, according to the present invention, it is possible to reduce thelocation registering requests transmitted from the mobile stations. Withthis reduction, an uplink radio wave interference quantity from themobile stations can be decreased, and therefore retransmissions etc.caused by the interference can be also reduced. Hence, the electricpower for the transmissions of the mobile station terminals can bedecreased.

Further, the present invention is related to a mobile communicationnetwork system configured by a plurality of mobile communication systemseach including a base station performing wireless communications with amobile station, comprising a storage unit storing location informationof the mobile station, an extraction unit extracting, based on thelocation registering request sent from the mobile station, informationabout a base station located in the periphery of the mobile station ineach of the plurality of mobile communication systems utilizable by themobile station, and a control unit storing information about theextracted base station as location information about the sender mobilestation of the location registering request in the storage unit:

In the present invention, one piece of location registration informationsent from the mobile station includes the information about the basestation existing in the periphery where the mobile station is locatedwith respect to each of the plurality of mobile communication systemsutilizable by the sender mobile station, and the location registrationof the mobile station can be batchwise conducted based on the locationregistration information.

With this contrivance, it is possible to reduce the location registeringrequests transmitted from the mobile stations. With this reduction, theuplink radio wave interference quantity from the mobile stations can bedecreased, and therefore the retransmissions etc. caused by theinterference can be also reduced. Further, on the side of the mobilecommunication network system, it may be sufficient to refer to only thelocation registering request from the mobile station, and hence thelocation registration process can be reduced.

Moreover, the present invention is related to a mobile communicationnetwork system configured by a plurality of mobile communication systemseach including a base station performing wireless communications with amobile station, comprising a waiting system retaining unit retaining awaiting mobile communication system of the mobile station, and anincoming notification unit acquiring, when receiving a communicationrequest from another mobile station, the waiting mobile communicationsystem of the mobile station designated as a communication destinationof the communication request from the waiting system retaining unit, andtransmitting an incoming notification responding to the communicationrequest to the mobile station designated as the communicationdestination through the acquired mobile communication system.

In the present invention, the waiting mobile communication system of themobile station is retained, and, when the communication request is sentfrom another mobile station, the incoming notification is transmittedthrough the waiting communication system of the mobile station as thecommunication destination.

Accordingly, in the present invention, the radio waves transmitted fromthe mobile communication systems can be reduced, and only any one of thewireless interfaces of the mobile station may simply wait, whereby theelectric power consumption of the whole system can be decreased.

Still further, the present invention is related to a mobile stationdevice capable of communicating with a plurality of mobile communicationsystems configuring a mobile communication network system, comprisingcommunication units provided corresponding to each of the plurality ofmobile communication systems, any one of the communication units beingset in an communication-enabled status, and a switchover unit setting,based on a signal received by the communication unit, if a requestedmobile communication system included in the signal is different from themobile communication system corresponding to the communication unit setin the communication-enabled status, the communication unitcorresponding to the requested mobile communication system in thecommunication-enabled status.

In the present invention, based on the signal received by thecommunication unit, the communication unit kept in thecommunication-enabled status is collated with the requested mobilecommunication system contained in this signal. If a difference betweenboth of the mobile communication systems is confirmed from thiscollation, the mobile communication system becoming thecommunication-enabled status is switched over.

Therefore, according to the present invention, the mobile station maywait through only any one of the wireless interfaces, and the electricpower consumption can be reduced.

It should be noted that the present invention may also be a program foractualizing any one of the functions described above. Further, thepresent invention may also be a readable-by-computer storage mediumstored with such a program.

According to the present invention, it is possible to provide the mobilewireless system capable of reducing the electric power consumption ofeach of the mobile station device and the base station device.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a diagram showing an example of a system architecture of amobile communication network system in a first embodiment;

FIG. 2 is a diagram showing an example of a table structure of a homelocation register in the first embodiment;

FIG. 3 is a diagram showing an example of a table structure of ageographical information management database;

FIG. 4 is a diagram showing communication areas for respective basestations;

FIG. 5 is a diagram showing a location registration sequence in thefirst embodiment;

FIG. 6 is a diagram showing a location registration sequence in a secondembodiment;

FIG. 7 is a diagram showing a device configuration of a mobile stationin a third embodiment;

FIG. 8 is a diagram showing an example of a table structure of the homelocation register in the third embodiment;

FIG. 9 is a diagram showing a call connection sequence in the thirdembodiment;

FIG. 10 is a flowchart showing an operation flow of the mobile stationin the third embodiment; and

FIG. 11 is a diagram showing a location registration procedure in aconventional system.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

A mobile communication network system in respective embodiments of thepresent invention will hereinafter be described with reference to thedrawings. Configurations of the embodiments that will be explained asbelow are exemplifications, and the present invention is not limited tothe configurations of the following embodiments.

[First Embodiment]

The mobile communication network system in the first embodiment of thepresent invention will hereinafter be explained.

[System Architecture]

To begin with, the system architecture of the mobile communicationnetwork system in the first embodiment will be described with referenceto FIG. 1. FIG. 1 is a block diagram showing the system architecture ofthe mobile communication network system in the first embodiment. Themobile communication network system is configured by mobilecommunication systems 100 and 200, a home location register 300, ageographical information management database 301 and a mobile station 1.

The mobile communication systems 100 and 200 are, for instance, systemsactualized individually by communication methods different from eachother, and establish a cooperative communication linkage with each otherby sharing the HLR 300 and the geographical information managementdatabase 301 that are connected to the same network. Herein, the mobilecommunication system 100 is, e.g., a CDMA (Code Division MultipleAccess) wireless system, and the mobile communication system 200 is,e.g., an OFDM (Orthogonal Frequency Division Multiplexing) wirelesssystem.

Each of the mobile communication systems 100 and 200 is constructed of aMobile services Switching Center (which will hereinafter simply beabbreviated to MSC) that actualizes each communication method, and ofbase stations. To be specific, the mobile communication system 100 isconstructed of BS 1-1, BS 1-2, BS 1-3 and BS 1-4 and of a MSC 1connected to these BSs, and the mobile communication system 200 isconstructed of BS 2-1, BS 2-2, BS 2-3 and BS 2-4, and of a MSC 2connected to these BSs. It should be noted that the present invention islimited neither to the architecture given above nor to the firstembodiment especially in terms of the number of the MSC(s) and thenumber of the BSs. Examples of other system architectures will beexplained later on in an item of Modified Example.

Respective function units configuring the mobile communication networksystem will hereinafter be described. The following discussion willexemplify the mobile communication system 100 in the mobilecommunication systems 100 and 200 building up the mobile communicationnetwork system. The respective function units configuring the mobilecommunication system 200 have the same functions as those of theindividual function units of the mobile communication system 100 exceptthe communication method.

<Mobile Station (MS)>

The MS 1 has a plurality of wireless interface functions, and transmitsand receives radio waves to and from the corresponding base stations BSsby the communication methods actualized by the respective wirelessinterfaces. The MS 1 communicates with the BSs 1-1, 1-2, 1-3 and 1-4 bythe communication method in the mobile communication system 100, andcommunicates with the BSs 2-1, 2-2, 2-3 and 2-4 by the communicationmethod in the mobile communication system 200.

Further, the MS 1, when detecting that the MS 1 itself moves from acommunication area that is covered by a certain BS to a communicationarea that is covered by an another BS, transmits a location registeringrequest signal in order to make the mobile communication network systemrecognize a location of the MS 1 itself. For example, the MS 1, whendetecting the movement from the communication area covered by the BS 1-1to the communication area covered by the BS 1-2, transmits the locationregistering request signal. At this time, the MS 1 detects its movementwith respect to each of the plurality of corresponding mobilecommunication systems, and transmits the location registering requestsignal to any one of the mobile communication systems. Note that the MS1 may also recognize its movement from or to the communication area byreceiving an annunciation signal carried on a feeble radio wave from theBS.

<Base Station (BS)>

The BS is installed in, e.g., each cell defined as a communication area,and transmits and receives the radio waves to and from the MS 1.Further, each BS implements any one of the communication methodssupported by the mobile communication network system. Specifically, eachof the BS 1-1, the BS 1-2, the BS 1-3 and the BS 1-4 has thecommunication interface for the mobile communication system 100, andeach of the BS 2-1, the BS 2-2, the BS 2-3 and the BS 2-4 has thecommunication interface for the mobile communication system 200. Each BSreceives the location registering request signal transmitted from the MS1 and transfers this signal to the MSC within the same system.

<Home Location Register (HLR)>

The HLR 300 is a database stored, on an MS-by-MS basis, with presentlocations of the MSs and with (information (names) about) the mobilecommunication systems utilizable by the MSs. The HLR 300 is registeredwith, as MS's location information, for example, identifying informationof the BS that covers, as its communication area, an area where the MSis located.

FIG. 2 is a diagram showing an example of a structure of a table of aHLR in this embodiment. As shown in FIG. 2, the HLR 300 is registered,on the MS-by-MS basis, with a mobile station ID for identifying the MS,location information indicating a present location of the MS, andinformation of mobile communication system supportable to the MS. BSinformation for every mobile communication system supportable to the MSis each registered in the location information field. In the exampleshown in FIG. 2, items of information about four MSs (MS 1 through MS 4)are registered. As to the MS 1 among these mobile stations, there areregistered the system information that the MS 1 has a dual modesupported by the mobile communication system 100 and by the mobilecommunication system 200, and the location information showing BS 1-2(the mobile communication system 100) and BS 2-2 (the mobilecommunication system 200).

<Geographical Information Management Database>

The geographical information management database 301 is stored, on anarea-by-area basis, with a list of the BSs that cover a periphery of thearea or this area as a communication area. FIG. 3 is a diagram showingan example of a table structure of the geographic information managementdatabase in this embodiment. The example in FIG. 3 shows that the BS 2-1in the mobile communication system 200, which covers the samecommunication area as the BS 101 covers, is registered with respect tothe BS 1-1. FIG. 4 illustrates an image of a system architecture in theexample in FIG. 3. Namely, FIG. 3 shows that, as seen in the example inFIG. 4, a communication area 401 is covered by the BS 1-1 and the BS2-1, a communication area 402 is covered by the BS 1-2 and the BS 2-2, acommunication area 403 is covered by the BS 1-3 and the BS 2-3, and acommunication area 404 is covered by the BS 1-4, the BS 2-4 and the BS3-4. It should be noted that the configuration shown in FIGS. 3 and 4 isnothing more than one example, and the present invention is not limitedto this configuration.

<Mobile Services Switching Center (MSC)>

The MSC 1 manages various items of information of the MS 1 bycommunicating with the BS 1-1, the BS 1-2, the BS 1-3 and the BS 1-4under the same mobile communication system. The MSC 1 receives thelocation registering request transmitted from the MS 1 via any one ofthe BS 1-1, the BS 1-2, the BS 1-3 and the BS 1-4, and registers, basedon this request, the location information of the MS in the HLR 300. Inthis case, the MSC 1 refers to the HLR 300 and to the geographicalinformation management database 301, thereby acquiring the identifyinginformation of the other BS that covers the periphery or the samecommunication area as the BS, which are connected to the mobilecommunication system supportable by the MS that is the sender of thelocation registering request signal and receives the locationregistering request signal.

The MSC 1 makes the location registration in a way that registers theidentifying information of the BS with its identifying informationacquired and the identifying information of the BS receiving thelocation registering request signal. For others, the MSC 1, in the caseof, e.g., a mobile phone service, may perform a switching connectionetc. by a call from a certain MS to another MS serving as acommunication partner terminal.

[Operational Example]

Next, an operational example of the mobile communication network systemin the first embodiment will be explained with reference to FIG. 5. FIG.5 is a diagram showing a location registering sequence in the mobilecommunication network system in this embodiment. FIG. 5 also shows anexample of a case where the location registering request signal istransmitted from the MS 1 by the communication method for the mobilecommunication system 100.

The MSC 1, when receiving the location registering request signal fromthe MS 1 via the BS 1-1 (S501), acquires the mobile station ID thatidentifies the sender from the received location registering requestsignal. The MSC 1 refers to the HLR 300 on the basis of the acquiredmobile station ID, thereby acquiring the information about the mobilecommunication system supportable by the MS 1. In the example in FIG. 2,the mobile communication systems 100 and 200 are extracted as thesystems supportable by the MS 1. Further, the MSC 1 recognizes that thebase station receiving the location registering request signal is BS1-1.

Subsequently, the MSC 1 refers, based on the extracted systeminformation, to the geographical information management database 301,and thus searches for an existence of the base station in the mobilecommunication system 200, which covers the periphery of the BS 1-1receiving the location registering request signal or the samecommunication area (S502). The MSC 1 extracts, in the example in FIG. 3,the BS 2-1 from the geographical information management database 301(S503).

The MSC 1 makes, based on this extracted result, the locationregistration in a way that registers BS 2-1 together with the BS 1-1 asthe location information of MS 1 in the HLR 300 (S504). Finally, the MSC1 notifies via the BS 1-1 that the location registration of the BS 1-1and the BS 2-1 is completed (S505). Note that the MSC 1, if there isnone of the relevant base station as a result of searching through thegeographical information management database 301, makes the locationregistration of only the BS 1-1 in the HLR 300. Further, the MSC 1, whenconfirming that there is no other mobile communication systemsupportable by the MS 1 after searching through the HLR 300, directlymakes the location registration of the BS 1-1 without searching throughthe geographical information management database 301.

<Operation/Effect in First Embodiment>

Herein, an operation and an effect of the mobile communication networksystem in the first embodiment discussed above will be described.

In the mobile communication network system in this embodiment, whenreceiving the location registering request signal from the MS 1 via theBS 1-1, this BS 1-1 is recognized, and the information about the mobilecommunication system supportably by the MS 1 is acquired from HLR 300.

Subsequently, the existence of the base station for other mobilecommunication system, which covers the periphery of the BS 1-1 or thesame communication area, is searched from the geographical informationmanagement database 301 on the basis of the acquired system information.Then, based on a result of this search, together with the BS 1-1, thelocation registration of the BS 2-1 as the base station in the othermobile communication system supportable by the MS 1 is made as thelocation information of the MS 1 in the HLR 300.

Thus, in this embodiment, upon one location registering request from theMS 1, simultaneously with the requested base station in the mobilecommunication system, the base station in the other mobile communicationsystem supportable by the MS 1 is location-registered.

With this contrivance, it is possible to reduce the location registeringrequest signals transmitted from the MS and to decrease an uplinkinterference quantity.

[Second Embodiment]

The mobile communication network system according to a second embodimentof the present invention will hereinafter be described. The mobilecommunication network system according to the first embodiment explainedearlier includes the geographical information management database 301from which the base station in the other mobile communication systemsupportable by the MS is searched. The mobile communication networksystem in the second embodiment takes such a configuration that the MSitself notifies of the information about the base stations peripheral tothe present location of the MS in other mobile communication systemsutilizable by the MS.

[System Architecture]

A system architecture in the second embodiment is the same as what thegeographical information management database 301 is omitted from thesystem architecture in the first embodiment shown in FIG. 1. Namely, themobile communication network system in the second embodiment isconfigured by the mobile communication systems 100 and 200, the HLR 300and the MS 1. The mobile communication systems 100 and 200 establish thecooperative communication linkage with each other by sharing the HLR 300connected to the same network as these communication systems areconnected. It should be noted that the present invention is not limitedto the architecture given above, and examples of other architectureswill be explained later on in the item of Modified Example. Thedescriptions of the function units having different functions from thosein the first embodiment will be focused on these different functions,and the explanations of the same functions as those in the firstembodiment are omitted.

<Mobile Station (MS)>

The MS 1 has a function of retaining, for every utilizable mobilecommunication system, the information about the base stations that coverthe communication area where the MS 1 itself is located. The informationabout the base stations is acquired from annunciation transmitted fromthe BS in each mobile communication system. The MS 1 always receives theannunciation transmitted from the BSs in the plurality of mobilecommunication systems support able by the MS 1, and compares theidentifying information of the BS contained in the received annunciationwith the already-retained BS identifying information.

The MS 1, when detecting that the identifying information of the BScontained in the received annunciation is different from the identifyinginformation of the already-retained BS, transmits the locationregistering request signal by use of the communication method of any oneof the mobile communication systems. The MS 1 sets the identifyinginformation of all self-retained BS in this location registering requestsignal.

<Mobile Services Switching Center (MSC)>

The location registering request in this embodiment contains the BSinformation with respect to all the mobile communication systemsutilizable by the MS as the sender, and hence the MSC 1 registersbatchwise these pieces of BS information as the location information inthe HLR 300. The MSC 1 transmits a result of the registration to the MSvia the BS receiving the location registering request.

<Home Location Register (HLR)>

The HLR 300 has, unlike the first embodiment, no necessity of memorizingthe mobile communication systems utilizable by the MS, and thereforetakes a structure in which the supportable system field is deleted fromthe table shown in FIG. 2.

[Operational Example]

Next, an operational example of the mobile communication network systemin the second embodiment will be explained with reference to FIGS. 4 and6. FIG. 6 is a diagram showing a location registering sequence in themobile communication network system in this embodiment. The discussionwill hereinafter be made based on an example shown in FIG. 4.

The MS 1 is assumed to exist within the communication area 402 shown inFIG. 4. In this case, the MS 1 receives the annunciation transmittedfrom each of the base stations BS 1-2 and the BS 2-2, and retainsinformation about the BS 1-2 and the BS 2-2 on the basis of the BSidentifying information contained in the respective pieces ofannunciation. In this status, when the MS 1 moves to the communicationarea 401, the mobile communication network system operates as follows.The MS 1, upon receiving the annunciation from the BS 1-1, acquires theinformation specifying the BS 1-1 from this annunciation. Similarly, theMS 1 receives the annunciation from the BS 2-1 and acquires theinformation specifying the BS 2-1 therefrom. The MS 1 compares the BS1-1 and the BS 2-1 acquired from the annunciation with the BS 1-2 andthe BS 2-2 kept retaining in terms of the same mobile communicationsystems. The MS 1, when recognizing that the BS is switched over in anyone of the mobile communication systems, transmits the locationregistering request signal containing a setting of the latest updatedbase station information (BS 1-1, BS 2-1) by the communication method inany one of the mobile communication systems. Herein, it is assumed thatthe MS 1 has transmitted the location registering request signal by thecommunication method in the mobile communication system 100.

The MSC 1, when receiving the location registering request signal fromthe MS 1 via the BS 1-1 (S601), acquires the mobile station ID thatidentifies the sender and the base station information (BS 1-1, BS 2-1)from the received location registering request signal. The MSC 1registers the acquired BS 1-1 and BS 2-1 as the location informationassociated with the acquired mobile station ID in the HLR 300 (S602).Finally, the MSC 1 notifies the MS 1 of completion of the locationregistration of the BS 1-1 and the BS 2-1 via the BS 1-1 (S603).

<Operation/Effect in Second Embodiment>

Herein, an operation and an effect of the mobile communication networksystem in the second embodiment discussed above will be described.

In the mobile communication network system according to this embodiment,the location registering request signal from the MS 1 contains the basestation information in all the mobile communication systems utilizableby the MS 1. The MSC 1 updates the location information related to theMS 1 serving as the sender in the HLR 300.

Thus, in this embodiment, the location registering request sent from theMS 1 contains the base station information in all the mobilecommunication systems in which the location registrations should bedone, and therefore the location registrations are conducted batchwiseby this request.

With this contrivance, it is possible to reduce the location registeringrequest signals transmitted from the MS and to decrease the uplinkinterference quantity. Further, the geographical information managementdatabase 301 can be eliminated, and the search process thereof can bereduced, thereby enabling a fast location registering process.

[Third Embodiment]

The mobile communication network system according to a third embodimentof the present invention will hereinafter be explained. The mobilecommunication network system in the embodiment discussed earlier is thatthe location registrations are conducted batchwise with respect to allthe mobile communication systems utilizable by the mobile station inresponse to the location registering request sent from the MS. Themobile communication network system in the third embodiment has afeature concerning a call connecting function based on the locationregistering function in the first embodiment and the second embodiment.

[System Architecture]

The mobile communication network system in the third embodiment has thefeature concerning the call connecting function, and hence the locationregistering function may take any type of system function in the firstembodiment or the second embodiment. Accordingly, a system architectureof the mobile communication network system may be any one of the systemarchitectures in the first embodiment and the second embodiment. Thecall connecting function characteristic of the third embodiment willhereinafter be explained on a unit-by-unit basis of the function unitsin the system architecture illustrated in FIG. 1.

<Mobile Station (MS)>

The MS 1 is a user terminal having a dual mode that supports thecommunication methods of both of the mobile communication systems 100and 200, and is switched over so that only any one of the wirelessinterfaces functions. The MS 1 may take, for example, a deviceconfiguration as shown in FIG. 7. FIG. 7 is a diagram showing the deviceconfiguration of the mobile station in the third embodiment. The MS 1 isconstructed of an antenna element 700, a wireless interface 710actualizing the communication method of the mobile communication system100, a wireless interface 720 actualizing the communication method ofthe mobile communication system 200, an incoming monitor unit 731, apower source unit 732, a control unit 733, etc. . . . Each of thefunction units may be constructed of a hardware circuit and may thusactualize a series of processes, and may further be actualized by makinga CPU (Central Processing Unit) execute a control program, etc. storedon a memory.

An antenna element 700 may be constructed of two antenna elementsconnected respectively to the wireless interfaces 710 and 720, and mayalso be constructed of one antenna element from which signals outputtedfrom the wireless interfaces 710 and 720 are synthesized by a hybridsynthesizer etc. and then outputted. The mobile communication networksystem does not limit the number of the antenna elements.

The power source unit 732 controls a quantity of power supply to thewireless interfaces 710 and 720 or power-on/power-off thereof, thusperforming such control that only any one of the wireless interfacesbecomes a communication-enabled status. Note that thecommunication-enabled status of the wireless interface may also beswitched over by a control signal etc. transmitted from the power sourceunit 732.

The wireless interface 710 has a transmitting unit 711 and a receivingunit 712, and the wireless interface 720 has a transmitting unit 721 anda receiving unit 722. The wireless interfaces are controlled so thatonly any one of these interfaces becomes the communication-enabledstatus. When transmitting, the power source unit 732 is controlled bythe control unit 733, whereby the should-be-transmitted-from wirelessinterface may also be selected. When receiving transmission data fromthe control unit 733, any one of the transmitting units 711 and 721transmits the transmission data as radio signals.

On the other hand, when receiving, it is possible to receive only by thecommunication method of the wireless interface becoming thecommunication-enabled status at that time. Such a receivable status ofthe mobile station is also called a waiting status. Namely, the MS canreceive the transmission signals from the mobile communication systemaccording to the waiting status of the mobile station, and the radiosignals received by the antenna element 700 are transferred to thereceiving unit 712 or 722 of the corresponding wireless interface by thecommunication method thereof.

The incoming monitor unit 731 is connected to the receiving units 712and 722, and monitors whether or not incoming signals received by thesereceiving units are incoming signals related to the other mobilecommunication system. The incoming monitor unit 731, when detecting theincoming to the other mobile communication system, instructs the powersource unit 732 to switch over the waiting status.

<Home Location Register (HLR)>

The HLR 300 takes a structure having an addition of a field for storingMS waiting system information to ,the structure in the first embodimentand the second embodiment. This field is stored with pieces ofinformation about the mobile communication systems receiving the recentlocation registering request signals.

FIG. 8 is an example of a table structure in which the third embodimentis applied to the HLR 300 in the first embodiment. The field for storingthe MS waiting system information is added to the rightmost column. Forinstance, when the location registering request signal transmitted fromthe MS 1 is received by the BS 2-2, the information specifying themobile communication system 200 is stored in the field of a recordassociated with the MS 1.

<Mobile Services Switching Center (MSC)>

The MSC 1, upon receiving the location registering request, registersthe HLR 300 with information (the mobile communication system 100)specifying the mobile communication system supported by the MSC 1itself, as recent waiting system information of the sender MS.

Further, the MSC 1, when receiving a communication request from the MSto another MS, transmits an incoming notifying signal to the MS servingas a communication destination. At this time, the MSC 1, with respect tothe communication destination MS, extracts the waiting systeminformation from the HLR 300, and checks whether or not the extractedwaiting system is the mobile communication system 100 to which the MSC 1itself belongs. The MSC 1, when judging that the communicationdestination MS does not wait in the mobile communication system 100,transfers the communication request to the MSC 2 according to thewaiting system. The communication request to be transferred may containsinformation specifying the mobile communication system 100 requested bythe sender mobile station MS 2. At this time, the MSC 1 may memorizethat the communication request has been transferred because of anecessity of eventually transmitting the incoming notifying signal.

The MSC 2, to which the communication request has been transferred,checks the waiting system of the MS serving as the communicationdestination in the same way as described above, and transmits theincoming notification via the BS registered in the HLR 300. The incomingnotification may have a setting of the information specifying the mobilecommunication system 100 requested by the sender MS 2.

[Operational Example]

Next, an operational example of the mobile communication network systemin the third embodiment will be explained with reference to FIG. 8. FIG.9 is a diagram showing a call connection sequence of the mobilecommunication network system in this embodiment. Given hereinafter is anexplanation by exemplifying a case in which the HLR 300 is registeredwith the mobile communication system 200 as the waiting systeminformation of the MS 1 and with BS 1-1 and the BS 2-1 as the locationinformation of the MS 1, in which state the communication requestaddressed to the MS 1 is transmitted in the mobile communication system100 from the MS 2.

The MSC 1 receives the communication request from the MS 2 via BS in themobile communication system 100 (S801). The MSC 1, upon receiving thecommunication request, extracts from the HLR 300 the waiting systeminformation of the MS 1 serving as the communication destination. Inthis case, the MSC 1 recognizes that the MS 1 waits in the mobilecommunication system 200. The MSC 1, as the MS 1 waits in the systemdifferent from the mobile communication system supported by the MSC 1itself, transfers this communication request to the MSC 2. Aftertransferring the request, the MSC 1 may be set in a standby status forretransmitting an original incoming notification.

The MSC 2, when receiving the communication request, searches throughthe HLR 300 in the same way as the MSC 1 does, and recognizes that theMS 1 waits in the mobile communication system 200. The MSC 2, from thisrecognition, sends the incoming notification to the MS 1 via the BS 2-1registered in the location information field in the HLR 300 (S802). Thisincoming notification has a setting of the information specifying themobile communication system 100 requested by the sender MS 2.

The MS 1, upon receiving the incoming notification, judges whether ornot this incoming notification is related to the mobile communicationsystem different from the mobile communication system kept in thewaiting status (the incoming monitor unit 731). The MS 1, when judgingin this judging process that the incoming notification is related to thedifferent mobile communication system, switches over the waiting statusand sets the mobile communication system 100 in thecommunication-enabled status (the power source unit 732). The MS 1, whenconfirming that the waiting status of the MS 1 itself is switched over,transmits the location registering request signal by the communicationmethod of the mobile communication system 100 after being switched over.

The MSC 1, when receiving this location registering request signal viathe BS 1-1 (S803), makes the location registration by the method in thefirst embodiment or the second embodiment, and sets in the HLR 300 themobile communication system 100 as the waiting system information aboutthe MS 1. Through this setting, the MSC 1 detects that the waitingstatus of the MS 1 is switched over. The MSC 1 sends a locationregistration completion response to the MS 1 (S804). Subsequently, theMSC 1, because of having transferred the communication request earlierand detected that the MS 1 serving as the communication destination wasswitched over to the desired mobile communication-system, sends againthe original incoming notification via the BS 1-1 (S805).

The MS 1 detects the reception of the incoming notification about themobile communication system in the present waiting status, and thereforegets into the communication status (S806).

<Operational Example of Mobile Station>

The above description has illustrated the operational example of thewhole mobile communication network system in the third embodiment. Anoperational example concerning the mobile station will hereinafter beexplained with reference to FIG. 10. FIG. 10 is a flowchart showing anoperation flow of the mobile station in the third embodiment.

The MS 1, when receiving the incoming notification (S1001), acquires themobile communication system requested in this incoming notification(S1002). The MS 1 collates the thus-acquired requested mobilecommunication system with its own waiting system (S1003). The MS 1, whenjudging from this collation that the present waiting system iscoincident with the requested mobile communication system acquired(S1003; YES), directly starts the communication with the partner mobilestation that has sent the transmission request (S1008).

While on the other hand, the MS 1, when judging that the requestedmobile communication system is different from the present waiting system(S1003; NO), judges that the incoming notification is related to thedifferent mobile communication system, and switches over the waitingstatus to the requested mobile communication system (S1004). The MS 1,thereafter, transmits the location registering request signal by thecommunication method of the mobile communication system after beingswitched over (S1005).

The MS 1 receives a location registration response that responds to thelocation registering request signal (S1006), and receives the incomingnotification in the requested mobile communication system after beingswitched over (S1007). Finally, the MS 1 starts the communication withthe communication requester mobile station through the requested mobilecommunication system (S1008).

[Operation/Effect in Third Embodiment]

Herein, an operation and an effect of the mobile communication networksystem in the third embodiment discussed above, will be described.

In the mobile communication network system in this embodiment, inresponse to the location registering request signal from the MS 1, thewaiting system of the MS 1 is registered in the HLR 300. If thecommunication partner mobile station sends the communication request tothe MS 1 through the mobile communication system different from thewaiting system of the MS 1, the waiting system registered in the HLR 300is searched for, and the incoming notification is sent through thewaiting system of the MS 1.

The MS 1, when receiving the incoming notification, checks matching.between the waiting system and the requested mobile communicationsystem. If mismatching between these systems is confirmed by this check,in the MS 1, the waiting system is switched over to the requested mobilecommunication system. Further, when the switchover of the waiting systemis completed in the MS 1, the location registering request is sentthrough the mobile communication system after being switched over.

Subsequently, in the mobile communication network system, when thelocation registering request is received, the location registration isconducted, and the MS 1 waiting system to be registered in the HLR 300is updated. It is recognized from this update that the MS 1 is switchedover to the requested mobile communication system, and again theincoming notification is sent through the post-switchover mobilecommunication system. From this onward, the MS 1, as the reception ofthe incoming notification through the requested mobile communicationsystem is confirmed, becomes the communication-enabled status with thecommunication partner mobile station.

Thus, in this embodiment, when the communication request is sent throughthe mobile communication system different from the waiting system of theMS 1, the incoming notification is transmitted once in the waitingsystem. With this transmission, the waiting system of the MS 1 isswitched over, and, from this onward, the communications can beperformed through the requested mobile communication system.

With this contrivance, the mobile station simply may wait through onlyany one of the wireless interfaces, and the electric power consumptioncan be reduced.

[Modified Example]

In the embodiments of the present invention discussed above, thelocation registering function is controlled by the MSC, however, thebase station itself may have this location registering function. In thiscase, the base station receiving the location registering request signalmay conduct the location registration in the HLR 300 in a way thatrefers to the HLR 300 and to the geographical information managementdatabase 301.

Further, a control device for controlling the plurality of mobilecommunication systems in the mobile communication network system isnewly provided, and the location registering function may also beactualized by this control device. In this case, the call connectingfunction in the third embodiment may also be carried out by this controldevice.

[Others]

The embodiments disclose the following inventions. The inventionsdisclosed in respective Notes can be combined to the greatest possibledegree as the necessity may arise.

(Note 1)

A mobile communication network system having a plurality of mobilecommunication systems each including a base station performing wirelesscommunications with a mobile station, comprising:

a storage unit storing location information of the mobile station;

an acquisition unit acquiring, when receiving a location registeringrequest from the mobile station, a communication-enabled mobilecommunication system of the sender mobile station of the locationregistering request;

a specifying unit specifying a base station existing in other mobilecommunication system than the mobile communication system including thebase station receiving the location registering request of the acquiredcommunication-enabled mobile communication system and existing in theperiphery of the base station receiving the location registeringrequest; and

a control unit storing information of the base station receiving thelocation registering request and information of the specified basestation as location information about the sender mobile station of thelocation registering request in the storage unit.

(Note 2)

A mobile communication network system according to Note 1, furthercomprising:

a system storage unit storing the communication-enabled mobilecommunication system of the mobile station; and

a geographical information storage unit storing, as to the target basestation, information of a base station in other mobile communicationsystem than a mobile communication system including the target basestation, the base station being located in the periphery of the targetbase station, wherein the acquisition unit acquires thecommunication-enabled mobile communication system of the sender mobilestation of the location registering request from the system storageunit, and

the specifying unit specifies the base station from the geographicalinformation storage unit.

(Note 3)

A mobile communication network system having a plurality of mobilecommunication systems each including a base station performing wirelesscommunications with a mobile station, comprising:

a storage unit storing location information of the mobile station;

an extraction unit extracting, based on the location registering requestsent from the mobile station, information about a base station locatedin the periphery of the mobile station in each of the plurality ofutilizable mobile communication systems of the mobile station; and

a control unit storing information about the extracted base station aslocation information about the sender mobile station of the locationregistering request in the storage unit.

(Note 4)

A mobile station device capable of communicating with a plurality ofmobile communication systems configuring a mobile communication networksystem, comprising:

a receiving unit receiving annunciation signal transmitted from each ofbase stations in the plurality of mobile communication systems;

a retaining unit retaining the information of the base station locatedin the periphery of the mobile station device itself with respect toeach of the plurality of mobile communication systems based on the basestation information included in the annunciation signal; and

a transmitting unit transmitting, if the retained information of thebase station is different from the base station information included inthe received annunciation signal, a location registering requestincluding the retained information of the base stations with respect tothe plurality of mobile communication systems to any one of the mobilecommunication systems.

(Note 5)

A mobile communication network system having a plurality of mobilecommunication systems each including a base station performing wirelesscommunications with a mobile station, comprising:

a waiting system retaining unit retaining a waiting mobile communicationsystem of the mobile station; and

an incoming notification unit acquiring, when receiving a communicationrequest from another mobile station, the waiting mobile communicationsystem of the mobile station designated as a communication destinationof the communication request from the waiting system retaining unit, andtransmitting an incoming notification responding to the communicationrequest to the mobile station designated as the communicationdestination through the acquired mobile communication system.

(Note 6)

A mobile communication network system according to Note 5, wherein thewaiting system retaining unit retains the mobile communication systemreceiving the location registering request from the mobile station asthe waiting mobile communication system of the sender mobile station ofthe location registering request.

(Note 7)

A mobile communication network system according to Note 6, wherein theincoming notification unit, after transmitting the incomingnotification, when receiving the location registering request from themobile station designated as the communication destination and when thewaiting system retaining unit confirms a switchover of the waitingmobile communication system of the mobile station, again transmits theincoming notification through the post-switchover mobile communicationsystem.

(Note 8)

A mobile station device capable of communicating with a plurality ofmobile communication systems configuring a mobile communication networksystem, comprising:

a plurality of communication units provided corresponding to each of theplurality of mobile communication systems, any one of the plurality ofcommunication units being set in an communication-enabled status; and

a switchover unit setting, based on a signal received by any one of theplurality of communication units, if a requested mobile communicationsystem included in the signal is different from the mobile communicationsystem corresponding to any one of the plurality of communication unitsset in the communication-enabled status, the communication unitcorresponding to the requested mobile communication system in thecommunication-enabled status.

(Note 9)

A location registering method in a mobile communication network systemhaving a plurality of mobile communication systems each including a basestation performing wireless communications with a mobile station,comprising the steps of:

acquiring, when receiving a location registering request from the mobilestation, a communication-enabled mobile communication system of a sendermobile station of the location registering request;

specifying a base station existing in other mobile communication systemthan the mobile communication system including the base stationreceiving the location registering request of the acquiredcommunication-enabled mobile communication system and existing in theperiphery of the base station receiving the location registeringrequest; and

registering information of the base station receiving the locationregistering request and information of the specified base station aslocation information about the sender mobile station of the locationregistering request.

(Note 10)

A location registering method in a mobile communication network systemhaving a plurality of mobile communication systems each including a basestation performing wireless communications with a mobile station,comprising the steps of:

extracting, based on a location registering request sent from the mobilestation, information about a base station located in the periphery ofthe mobile station in each of the plurality of utilizable mobilecommunication systems of the mobile station; and

registering information about the extracted base station as locationinformation about the sender mobile station of the location registeringrequest.

(Note 11)

A communication connecting method in a mobile communication networksystem having a plurality of mobile communication systems each includinga base station performing wireless communications with a mobile station,the method comprising:

a retaining step of retaining a waiting mobile communication system ofthe mobile station; and

a step of acquiring, when receiving a communication request from anothermobile station, the waiting mobile communication system of the mobilestation designated as a communication destination of the communicationrequest, and transmitting an incoming notification responding to thecommunication request to the mobile station designated as thecommunication destination through the acquired mobile communicationsystem.

(Note 12)

A communication connecting method according to Note 11, wherein theretaining step retains the mobile communication system receiving thelocation registering request from the mobile station as the waitingmobile communication system of the sender mobile station of the locationregistering request.

(Note 13)

A communication connecting method according to Note 12, furthercomprising:

a step of again transmitting, after transmitting the incoming,notification, when receiving the location registering request from themobile station designated as the communication destination and whenconfirming a switchover of the waiting mobile communication system ofthe mobile station, the incoming notification through thepost-switchover mobile communication system.

(Note 14)

A communication interface switching method in a mobile station capableof communicating with a plurality of mobile communication systemsconfiguring a mobile communication network system, the mobile stationhaving communication interfaces provided corresponding to each of theplurality of mobile communication systems, any one of the communicationinterfaces being set in a communication-enabled status, comprising:

a step of switching over, based on a signal received by any one of thecommunication interfaces, if a requested mobile communication systemincluded in the signal is different from the mobile communication systemcorresponding to any one of the communication interfaces set in thecommunication-enabled status, the communication interface correspondingto the requested mobile communication system to thecommunication-enabled status.

<Others>

The disclosures of Japanese patent application No.JP2005-227107, filedon Aug. 4, 2005 including the specification, drawings and abstract areincorporated herein by reference.

1. A mobile station device capable of communicating with a plurality ofmobile communication systems within a mobile communication networksystem, each of the plurality of mobile communication systemscorresponding to a different communication method, the mobile stationdevice comprising: a plurality of wireless interfaces each implementingany one of the different communication methods; a power control unitcontrolling the plurality of wireless interfaces such that any one ofthe plurality of wireless interfaces becomes communication-enabled,wherein the communication-enabled wireless interface is set as a waitingwireless interface; a comparing unit comparing, based on an incomingnotification received by the waiting wireless interface, a requestedmobile communication system designated by information included in theincoming notification with a mobile communication system correspondingto the communication method implemented by the waiting wirelessinterface; a switchover unit directing the power control unit toswitchover the wireless interface implementing the communication methodof the requested mobile communication system to becommunication-enabled, when the comparing unit judges that the requestedmobile communication system is different from the mobile communicationsystem implemented by the waiting wireless interface; and a transmittingunit transmitting a location registering request, for informing themobile communication system corresponding to the communication methodimplemented by the waiting wireless interface, through thepost-switchover wireless interface.
 2. A communication interfaceswitching method in a mobile station capable of communicating with aplurality of mobile communication systems within a mobile communicationnetwork system, each of the plurality of mobile communication systemscorresponding to a different communication method, the mobile stationhaving a plurality of wireless interfaces each implementing any one ofthe different communication methods and a power control unit controllingthe plurality of wireless interfaces such that any one of the pluralityof wireless interfaces becomes communication-enabled, wherein thecommunication-enabled wireless interface is set as a waiting wirelessinterface, the communication interface switching method comprising: acomparing step of comparing, based on an incoming notification receivedby the waiting wireless interface, a requested mobile communicationsystem designated by information included in the incoming notificationwith a mobile communication system corresponding to the communicationmethod implemented by the waiting wireless interface; a switchover stepof directing the power control unit to switchover the wireless interfaceimplementing the communication method of the requested mobilecommunication system to be communication-enabled, when it is judged inthe comparing step that the requested mobile communication system isdifferent from the mobile communication system implemented by thewaiting wireless interface; and a transmitting step of transmitting alocation registering request, for informing the mobile communicationsystem corresponding to the communication method implemented by thewaiting wireless interface, through the post-switchover wirelessinterface.